The present work reports the effect of Mr. Trivedi’s biofield onchemical and thermal properties of cellulose based polymers (celluloseand cellulose acetate). The XRD studies revealed well-defined crystallinebehavior for both control cellulose and biofield... moreThe present work reports the effect of Mr. Trivedi’s biofield onchemical and thermal properties of cellulose based polymers (celluloseand cellulose acetate). The XRD studies revealed well-defined crystallinebehavior for both control cellulose and biofield treated sample.Biofield treated sample showed greater crystallite size as comparedto control cellulose, which was quite unexpected, and we hypothesizethat biofield was inducing more long range order between the atomsalleviating its crystalline nature. Though a decrease in crystallite sizewas observed in treated cellulose acetate as compared to control sample.
The DSC thermogram of control cellulose showed no change inmelting behavior, on the other hand, treated cellulose acetate showedenhanced melting temperature peak, which revealed the high thermalstability of the respective polymer. CHNSO results corroboratedsubstantial increase in percentage hydrogen and oxygen of treatedpolymers (cellulose and cellulose acetate) as compared to controlsample. TGA analysis c... less

In summary, the biofield energy treatment has substantially alteredthe specific heat capacity, crystallite size, and unit cell parameters. Thespecific heat capacity of treated Mg3N2 was significantly increased up to152.23% as compared to the control. The ... moreIn summary, the biofield energy treatment has substantially alteredthe specific heat capacity, crystallite size, and unit cell parameters. Thespecific heat capacity of treated Mg3N2 was significantly increased up to152.23% as compared to the control. The biofield treatment showed thealteration in the lattice parameter (0.20%), unit cell volume (0.61%),density (-0.60%), and molecular weight (0.61%) in treated sample ascompared to control. On the basis of alteration in relative intensities ofXRD peaks in treated sample as compared to control, it is concludedthat the biofield energy treatment probably altered the surfacemorphology of the treated Mg3N2 powder. In addition, the crystallitesize of the treated sample was significantly increased by 33.30% ascompared to control. Therefore, based on the above outcomes it isconcluded that biofield treated Mg3N2 could be more useful in chemicaland optoelectronic properties. less